SummaryNeural systems adapt to background levels of stimulation. Adaptive gain control has been extensively studied in sensory systems but overlooked in decision-theoretic models. Here, we describe evidence for adaptive gain control during the serial integration of decision-relevant information. Human observers judged the average information provided by a rapid stream of visual events (samples). The impact that each sample wielded over choices depended on its consistency with the previous sample, with more consistent or expected samples wielding the greatest influence over choice. This bias was also visible in the encoding of decision information in pupillometric signals and in cortical responses measured with functional neuroimaging. These...
During perceptual decision-making tasks, centroparietal EEG potentials report an evidence accumulati...
We frequently need to make timely decisions based on sensory evidence that is weak, ambiguous, or no...
Recently, there has been an increased interest on the neural mechanisms underlying perceptual decisi...
International audienceNeural systems adapt to background levels of stimulation. Adaptive gain contro...
Highlights •Humans show biased integration of decision-relevant evidence •Later and more expected ...
SummaryNeural systems adapt to background levels of stimulation. Adaptive gain control has been exte...
Decision bias is traditionally conceptualized as an internal reference against which sensory evidenc...
quential sampling models provide a useful framework for understand-ing human decision making. A key ...
Perceptual decision-making is the process of choosing between two or more alternatives based on an e...
In perceptual decision-making, ideal decision-makers should bias their choices toward alternatives a...
In many perceptual and cognitive decision-making problems, humans sample multiple noisy information ...
Decision-makers often arrive at different choices when faced with repeated presentations of the same...
A key computation underlying perceptual decisions is the temporal integration of "evidence" in favor...
In many perceptual and cognitive decision-making problems, humans sample multiple noisy information ...
Perceptual decisions in the presence of decision-irrelevant sensory information require a selection ...
During perceptual decision-making tasks, centroparietal EEG potentials report an evidence accumulati...
We frequently need to make timely decisions based on sensory evidence that is weak, ambiguous, or no...
Recently, there has been an increased interest on the neural mechanisms underlying perceptual decisi...
International audienceNeural systems adapt to background levels of stimulation. Adaptive gain contro...
Highlights •Humans show biased integration of decision-relevant evidence •Later and more expected ...
SummaryNeural systems adapt to background levels of stimulation. Adaptive gain control has been exte...
Decision bias is traditionally conceptualized as an internal reference against which sensory evidenc...
quential sampling models provide a useful framework for understand-ing human decision making. A key ...
Perceptual decision-making is the process of choosing between two or more alternatives based on an e...
In perceptual decision-making, ideal decision-makers should bias their choices toward alternatives a...
In many perceptual and cognitive decision-making problems, humans sample multiple noisy information ...
Decision-makers often arrive at different choices when faced with repeated presentations of the same...
A key computation underlying perceptual decisions is the temporal integration of "evidence" in favor...
In many perceptual and cognitive decision-making problems, humans sample multiple noisy information ...
Perceptual decisions in the presence of decision-irrelevant sensory information require a selection ...
During perceptual decision-making tasks, centroparietal EEG potentials report an evidence accumulati...
We frequently need to make timely decisions based on sensory evidence that is weak, ambiguous, or no...
Recently, there has been an increased interest on the neural mechanisms underlying perceptual decisi...